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application note an98090 fiber optic transceiver board stm1/4/8, oc3,12,24, fc/ge
abstract fiber optic transceiver board stm1/4/8, oc3,12,24, fc/ge philips semiconductors application note an98090 2 philips electronics n.v. 1998 all rights are reserved. reproduction in whole or in part is prohibited without the prior written consent of the copy- right owner. the information presented in this document does not form part of any quotation or contract, is believed to be accurate and reliable and may be changed without notice. no liability will be accepted by the publisher for any consequence of its use. publication thereof does not convey nor imply any license under patent- or other indus- trial or intellectual property rights. this application note describes demoboard om5802. this demoboard is designed for customer demonstration of philips semiconductors tza30xx series ics. the functionality which can be demonstrated are: full receiver (tza3030, tza3000, tza3040), data and clock recovery (tza3004), transceiver (demultiplexer, frame detect & alignment, multiplexer and clock convertor, tza3005) and laserdriver (tza3031, tza3001, tza3041). since the pinout of the ics is identical for 155, 622, 1062.5 and 1250 mbps, the board can be used for all these datarates. only the appropriate ics must be chosen for the datarate. the application note is limited to information not described in the individual datasheets. apart from a sample application of the ics, a cleanup pll, acting as reference generator in add/drop multiplexers has been added to the board.
keywords philips semiconductors author: fiber optic transceiver board stm1/4/8, oc3,12,24, fc/ge application note an98090 3 application note fiber optic transceiver board stm1/4/8, oc3,12,24, fc/ge an98090 marcel j.m. geurts philips semiconductors systems laboratory eindhoven, the netherlands. telecom optical networks sdh sonet stm1, stm4, fiber channel, gigabit ethernet oc3, oc12, oc24 cml,pecl 1 chip receiver high transimpedance overload laser output control date: 28 september 1998 number of pages: 55
fiber optic transceiver board stm1/4/8, oc3,12,24, fc/ge philips semiconductors application note an98090 4 introduction this application note is written to support the following ics: the apnote consists of the following sections: getting started: containing block diagram, connection setup and test description. general section: acronyms, layout consideration and cross section of the pcb. user interface: description of the functionality of buses, pin arrays, leds and switches on the board. schematics: the complete schematic diagram of the board. layouts: an enlarged view of the layers of the board. bill of materials: the component mounted on the board. no detailed description of the blocks and measurements are available on this moment. they will be described in a document which will be available in october 1998. this document has been adapted from the an97065 which described the previous board release (pr47512). the board revision described in this document is pr47513. table 1 supported ics for demoboard om5802 functionality datarate [mbps] 1 chip receiver data & clock recovery unit aligned mux/demux, clock converter laserdriver 155 tza3030 tza3004 tza3005 tza3031 622 tza3000 tza3004 tza3005 tza3001 1063 tza3040 OQ2541 tza3041 1250 tza3040 OQ2541 tza3041
fiber optic transceiver board stm1/4/8, oc3,12,24, fc/ge philips semiconductors 5 application note an98090 table of contents: 1. getting started: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11 1.1 introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12 1.2 demoboard description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12 1.3 test possibilities . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12 1.3.1 1 chip receiver tza3000 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12 1.3.2 data and clock recovery unit tza3004 . . . . . . . . . . . . . . . . . . . . . . . . . 12 1.3.3 mux/demux tza3005 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12 1.3.4 laserdriver tza3001 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13 1.4 how to test & what to set . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13 1.4.1 introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13 1.4.2 mounting of the photodetector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13 1.4.3 mounting of the laserdiode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14 1.4.4 supply voltages . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14 1.4.5 back to back sensitivity measurement: laserdriver in - dcr out . . . . . . . . . . . . 14 1.4.6 sensitivity on 1 chip receiver tza3000 . . . . . . . . . . . . . . . . . . . . . . . . . 15 1.4.7 laserdriver output waveforms. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15 1.5 switches setting overview for 622 mbps mode . . . . . . . . . . . . . . . . . . . . . . . . . . . 16 1.6 results: ber and laser output waveform . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17 2. general . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19 2.1 acronyms . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19 2.2 layout considerations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20 2.3 optical components . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21 3. user interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23 3.1 sma, smb connectors and arrays . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23 3.2 dipswitches & leds . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25 3.3 supply voltage selectors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25 4. schematics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 29 4.1 overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 29 4.2 1 chip receiver tza30x0: pd_tia . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30 4.3 data and clock recovery device tza3004: dcr . . . . . . . . . . . . . . . . . . . . . . . . . . 31 4.4 data and clock recovery device OQ2541: dcr (in 1250 mbps configuration only) . . . . . . . . 32 4.5 mux & demux: tza3005: dmux_fd_mux_cc . . . . . . . . . . . . . . . . . . . . . . . . . . 33 4.6 laserdriver tza30x1: ldr_ld . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 34 4.7 reference pll for loopback signal cleanup . . . . . . . . . . . . . . . . . . . . . . . . . . . .35 5. bill of materials . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 37 6. layouts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 47 6.1 silkscreen. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 47 6.2 top layer component placement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 48 6.3 toplayer copper . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 49 6.4 first inner layer (#3) copper, inverted . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 50 6.5 second inner layer (#4) copper, topview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 51 6.6 bottom layer (#2) copper topview. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 52 6.7 bottom compenent placement (view from bottom) . . . . . . . . . . . . . . . . . . . . . . . . . 53
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fiber optic transceiver board stm1/4/8, oc3,12,24, fc/ge philips semiconductors 7 application note an98090 list of figures: fig.1 block diagram of demoboard om5802.. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11 fig.2 enlargement of the receiver section. the top layer is shown in top view. when a (mini)dil packaged detector is used, holes are foreseen for the package (a). the pcb has standard a cutout for a coaxial type detector (b). two types of coax packages are foreseen. the pinning of these packages is shown in bottom view. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13 fig.3 enlargement of the transmitter section. the top layer is shown in top view. the picture shows the footprint of the used laser with corresponding pin-functionality.1. . . . . . . . . . . . . . . . . . . . . 4 fig.4 results of sensitivity measurement (a) and laser unfiltered optical eye (b).. these plots were the results of the measurements described in this section. . . . . . . . . . . . . . 17 fig.5 general setup of power supply decoupling network: from the global domain a pi filter provides the voltage for the local voltage domains. capacitor c2 is placed as close as possible to the ic to reduce parasitic inductance. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20 fig.6 voltage selection jumpers shown with selectable voltages. note that all jumpers should have identical voltage and that j202 should be selected to vcc-3.3 v . . . . . . . . . . . . . . . . . . . . . . . . 27
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fiber optic transceiver board stm1/4/8, oc3,12,24, fc/ge philips semiconductors 9 application note an98090 list of tables: table 1 supported ics for demoboard om5802 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 table 2 supported ics for demoboard om5802 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12 table 3 switches settings for om5802/pr47513 tests described in this section. h means high, led on. l means low, led off. x is dont care.. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16 table 4 pin array usage. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23 table 5 bus usage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23 table 6 sma connector usage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23 table 7 smb connector usage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24 table 8 dipswitches & leds . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25 table 9 supply voltage of rf ics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26 table 10 bill of materials, sorted after reference number. nm=not mounted . . . . . . . . . . . . . . . . . 37
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fiber optic transceiver board stm1/4/8, oc3,12,24, fc/ge philips semiconductors 11 application note an98090 1. getting started: fig.1 block diagram of demoboard om5802. losttl sma din cref osc rxpd0..7 rxpclk txsd txsclk 19mhzo rxsclk rxd sdttl refclk tza3005 mux/dmux laq bias la din sma sma tza3000 tza3004 tza3005 tza3001 settings losth enl refsel0 mode dlen tone alarmreset bwc refsel1 stoprx llen tzero als cml/ecl stoptx mrst buswidth alarmhi squelch rstrx oof stopsyn alarmlo rstpll vccvcxo indicators los lock on ref lock alarm ber als sma i/os pecl output dout txsd din la cout txsclkq pin arrays agc oof rxpd0..7 txpclk tzero rxpclk txpd0..7 sysclkdiv tone tza3000 rx outpecl sma txpd0..7 sma rxpclk + 19.44 mhz vcxo tza3004 dcr cleanup pll sma refclk rxpclk tza3001 ldr
12 fiber optic transceiver board stm1/4/8, oc3,12,24, fc/ge philips semiconductors application note an98090 1.1 introduction the demoboard om5802 is designed to demonstrate the functionality of the following ics: in this report, the 622 mbps ics will be used. all discussions are valid for the ics of the different types. in this section an overview of the board will be given. after this, some measurements will be shown. 1.2 demoboard description the receiver section of the board consists of the photodetector, transimpedance amplifier, lowpass filter and limiter (tza3000), the data and clock recovery unit (tza3004) and the demultiplexer (1/2 tza3005). the transmitter section consists of the cleanup pll, the multiplexer and clock convertor (other half of tza3005), the laserdriver (tza3001) and the laserdiode. for phase alignment & jitter filtering, a cleanup phase locked loop has been added (74hct9046+19.44 mhz vcxo). 1.3 test possibilities 1.3.1 1 chip receiver tza3000 the tza3000 has 2 outputs (cml and pecl levels). the pecl level outputs are available at sma connectors. this gives the user the possibility to test the tza3000 separate from the rest of the system. 1.3.2 data and clock recovery unit tza3004 the tza3004 has 2 outputs (normal and loop). the normal data and clock outputs are available at sma connectors. this gives the user the possibility to test the tza3000 and the tza3004 combination separate from the rest of the system. the loop outputs are connected with the demux. if the tza3005 is not on the board (in case of the 1250 mbps configurations), the reference clock for the dcr needs to be provided via refclkq. 1.3.3 mux/demux tza3005 the tza3005 receiver tests have to be done in conjunction with the tza3000 and tza3004. the board does not contain a separate serial input. the parallel clock, data and frame outputs are available on pin arrays to connect to a logic analyzer. the frame alignment enabling is also available to the user. a buffered version of the parallel clock and a copy of the frame pulse are available on smb connectors the tza3005 transmitter part can be tested apart from the system: the serial data is available on the ldr din / ldr dinq sma connectors. the serial clock is attenuated and connected with an sma connector. table 2 supported ics for demoboard om5802 functionality datarate [mbps] 1 chip receiver data & clock recovery unit aligned mux/demux, clock converter laserdriver 155 tza3030 tza3004 tza3005 tza3031 622 tza3000 tza3004 tza3005 tza3001 1250 tza3040 OQ2541 tza3041
fiber optic transceiver board stm1/4/8, oc3,12,24, fc/ge philips semiconductors 13 application note an98090 the parallel input data can be supplied to the pin array (txpd0..7). smb connectors carry the signals syclkdiv and txpclk. 1.3.4 laserdriver tza3001 the laserdriver gets its data signals from the summed outputs of the sma connectors (ldr din/dinq) and the serial multiplexer data (txsd/txsdq). testing the laserdriver separate from the tza3005 is possible if the output of the multiplexer is stopped (stoptx). signals should be connected to the sma connectors (ldr din/ dinq). the output of the laserdriver is a differential pair (la/laq). one output drives the laser (laq), the other drives a dummy load. an attenuated version of this dummy voltage is connected with an sma connector (la). 1.4 how to test & what to set 1.4.1 introduction in this section mounting of the photodetector and laserdiode is described. after this a limited number of tests are shown, in combination with the switch setting. detailed description of the tests can be found in individual sections. 1.4.2 mounting of the photodetector this is done by mounting resistor r105. when a board passes this test, the resistor is removed fig.2 enlargement of the receiver section. the top layer is shown in top view. when a (mini)dil packaged detector is used, holes are foreseen for the package (a). the pcb has standard a cutout for a coaxial type detector (b). two types of coax packages are foreseen. the pinning of these packages is shown in bottom view. (a) (b) 1) case 3) cathode 2) anode 1 2 3 1 2 3
14 fiber optic transceiver board stm1/4/8, oc3,12,24, fc/ge philips semiconductors application note an98090 1.4.3 mounting of the laserdiode standard, the board is tested electrically. the bias & modulation source are then terminated to vcc with a dummy load. after test pass, these resistors are removed. fig.3 enlargement of the transmitter section. the top layer is shown in top view. the picture shows the footprint of the used laser with corresponding pin-functionality. 1.4.4 supply voltages standard, the board is tested on 5.0 v supply voltages. the supply voltages selectors on the bottom side of the pcb are set to this. if other voltages are required, please follow the description in section 3.3. 1.4.5 back to back sensitivity measurement: laserdriver in - dcr out in this measurements 2 aspects have to be taken into account: 1. polarity inversion in the path from sma connectors to light output the sma connectors ldr din / ldr dinq are connected via a resistive splitter to the outputs of the multiplexer (txdq / txsd) and the inputs of the laserdriver (din/dinq). when the multiplexer is turned off, the signal on the connector drives the corresponding laserdriver inputs (ldr din - din and ldr dinq - dinq). note that the q output of the multiplexer is connected to the normal input of the laserdriver. the laserdriver inverts the output of the multiplexer! to correct for this, the laq output is connected to the laser, and the la output can be monitored at the sma connector la. if a pattern generator output is connected with the ldr din/ldr dinq inputs, a signal inversion occurs. this should be taken into account when performing a bit error test. 2. turning off the output of the multiplexer & keeping the 19 mhz from the synthesizer the test signal stoptx from the multiplexer tza3005 turns both the output stages and the synthesizers 1 2 3 4 5 6 7 8 9 10 12 13 14 11 - q peltier cathode anode top view
fiber optic transceiver board stm1/4/8, oc3,12,24, fc/ge philips semiconductors 15 application note an98090 off. this is a problem since the tza3004 needs the 19 mhz signal, generated by the tza3005s synthesizer. therefore remove c307 and c308, and mount a dummy load of 100 ohm between the outputs of the transmission lines from the splitter. this ensures proper termination & pulse waveform at the laserdriver, and the tza3005 can remain on to generate the 19 mhz for the tza3004, without disturbing the input signal of the tza3001 laserdriver. 3. providing a 19 mhz reference for the dcr directly via refclkq a provision has been made to provide a reference clock without the tza3005. this is enabled by removing 0 ohm resistor r511 and connecting a 220 nf 1206 capacitor on pads for c519 (diagonally on the pcb near l306. this provides a path to the net 19mhz3004. the following measurement equipment is necessary for this measurement 1. pattern generator. output level 400 .. 800 mv. 2. optical attenuator 3. optical power meter 4. bit error receiver 5. power supply of 3.3 v and 5.0 v max 800 ma for the demoboard the connections of the measurement equipment to the board should be done as follows: 1. connect 3.3 v and 5.0 v power supply to the demoboard 2. connect the output of the laser to the optical attenuator input 3. connect the electrical output la to a sample scope. this shows the switching current of the laser 4. connect the output of the optical attenuator to the photo detector input 5. either remove c307 and c308 & place a dummy or apply a clock via refclkq and make the connection via the c519 (both described above). 6. connect the output of the pattern generator to ldr din and ldr dinq. if a single ended source is used, terminate the non-used input with 50 ohm. 7. connect the bit error receiver to the cout/coutq and dout/doutq outputs of the data & clock recovery unit. if a single ended receiver is used, terminate the non-used outputs with 50 ohm. 8. mind the polarity inversion of the total system. (use signal inversion on the bit error receiver). 9. disable the tza3001 alarms by either changing the alarm levels (potentiometer alarmhi/alarmlo) or setting alarmreset high. 10. set the tza3000 output to dcr by selecting cml: cml/ecl = high 11. set the data & clock recovery unit in both mode by making enl = low 12. check if the reference frequency for the dcr is available. if the tza3005 mux/demux generates 19 mhz for the dcr by activating it: all other switches should be low, except mode=high, dlen=high and llen=high. if the refclkq input is used: check the connection. 1.4.6 sensitivity on 1 chip receiver tza3000 when the tza3000 is solely tested, the pecl outputs should be selected. (pecl/cml = low). 1.4.7 laserdriver output waveforms the setup of the transmitter is identical to that of the sections above. the optical output can be monitored on an optical oscilloscope.
16 fiber optic transceiver board stm1/4/8, oc3,12,24, fc/ge philips semiconductors application note an98090 the receiver tza3000 is not used in case. 1.5 switches setting overview for 622 mbps mode table 3 switches settings for om5802/pr47513 tests described in this section. h means high, led on. l means low, led off. x is dont care. block name laserdriver to receiver tza3000 tza3001 tza3004 laserdriver to receiver tza3000 tza3001 optical waveform tza3001 tza3000 squelch l l l pecl_cml h l h losttl (led) x x x tza3004 enl l l h ool3004 (led) l l l sig3004 (led) h h h tza3005 buswidth l l l oof l l l llen h h h dlen h h h mode h h h stoprx l l l mrst l l l rstrx l l l stopsyn l l l stoptx l l l r1 (refsel1) l l l r0 (refsel0) l l l lockdet (led) h h h cleanup pll rst_pll l l l vccvcxo h h h tza3001 als l l l alarm3001 (led) l l l als_on (led) l l l alarmreset l l l
fiber optic transceiver board stm1/4/8, oc3,12,24, fc/ge philips semiconductors 17 application note an98090 1.6 results: ber and laser output waveform fig.4 results of sensitivity measurement (a) and laser unfiltered optical eye (b).. these plots were the results of the measurements described in this section. 10 -3 10 -4 10 -5 10 -6 10 -7 10 -8 10 -9 10 -10 10 -11 receiver sensitivity/dbm -34.5 -33.5 -32.5 -31.5 ber -32 -33 -34 -31 -35 tza3000 622 mbps 2 bits of 622.08 mbps wave form optical 1.3 mw 60 m w (a) (b)
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fiber optic transceiver board stm1/4/8, oc3,12,24, fc/ge philips semiconductors 19 application note an98090 2. general 2.1 acronyms 155 155.52 622 622.06 1063 1062.5 tza type number indication pcb printed circuit board gnd ground ic integrated circuit w width cu copper dil dual in line itu international telecommunication union dcr data and clock recovery (unit) dmux demultiplexer (deserializer, from serial data to parallel data) mux multiplexer (serializer, from parallel data to serial data) n integer oof out of frame refsel0 reference frequency setting, input #0 refsel1 reference frequency setting, input #1 dlen data loopback enable llen line loopback enable mrst master reset stoptx stop transmitter rst_pll reset pll vccvcxo power supply of vcxo vcxo voltage controlled crystal oscillator rst_alarm reset alarm enl enable loop bwc bandwidth control sma rf connector 50 ohm system impedance smb small outline dc connectors pxxx identification label for pins, buses and connectors ..q indication for inverted signal
20 fiber optic transceiver board stm1/4/8, oc3,12,24, fc/ge philips semiconductors application note an98090 2.2 layout considerations the layout for the demoboard is designed on a 4 layer pcb. the layers are numbered: top layer 1, bottom layer 2, buried layer top 3 and buried layer bottom 4. the copper on the layers is 35 m m thick, the space between the layers is 0.435 and 0.5 mm. the material is fr4, with relative dielectric constant e r =4.3. no buried vias are used. the use of the layers is ordered as follows (from top to bottom) layer 1, top: signal layer 3, buried top: global gnd, except at tza3005, where it carries the ttl lines layer 4, buried bottom: global gnd layer 2, bottom: signal. a global gnd is used, mostly at layer 3 and 4 under all high speed ics the gnd layers are connected with multiple as-large-as-possible vias, to reduce parasitic inductance between the gnd planes. the supply lines of the board are configured as star from connector to ics/blocks. the decoupling of all ics/blocks is done with a two stage pi network: from the connector an individual line goes to the first pi network near the ic/block. then all the voltage domains are individually decoupled by a pi filter. this filter is placed near the voltage domain pin. the last capacitor is placed as close as possible to the ic/block. fig.5 general setup of power supply decoupling network: from the global domain a pi filter provides the voltage for the local voltage domains. capacitor c2 is placed as close as possible to the ic to reduce parasitic inductance. + ic c1 c2 l1 v cc(globa)
fiber optic transceiver board stm1/4/8, oc3,12,24, fc/ge philips semiconductors 21 application note an98090 2.3 optical components the board has been made adaptable for dil and coax types optical components. 350 35 cu 500 35 cu 350 85 17 cu layer 1 layer 3 layer 4 85 17 cu layer 2 signal, (microstrip single: width = 1000 ) signal, local ground gnd signal (microstrip differential: width=400, clearance = 200) top bottom cross section of multilayer pcb units: m m
22 fiber optic transceiver board stm1/4/8, oc3,12,24, fc/ge philips semiconductors application note an98090 this page is intentionally left blank
fiber optic transceiver board stm1/4/8, oc3,12,24, fc/ge philips semiconductors 23 application note an98090 3. user interface 3.1 sma, smb connectors and arrays table 4 pin array usage id type name description p106 array 1x2 agc agc i/o, can be used for monitoring or controlling tza300 agc setting p302 array 1x2 oof out of frame input, can be used for connecting frame/deframer to board. note that the board switch must be open. disconnecting board signal can be done by removing r300 p405 array 1x2 one level one level indicator of tza3001 dual control loop, buffered voltage output p406 array 1x2 zero level zero level indicator of tza3001 dual control loop, buffered voltage output p300 array 2x10 rxpd... receive parallel data outputs + frame pulse + clock output p305 array 2x10 txpd... transmit parallel data inputs + parallel clock input + system clock output table 5 bus usage id type name description p100 bus 1x2 - test bus p105 bus 1x2 - test bus p204 bus 1x2 - test bus p404 bus 1x2 - test bus p404 bus 1x2 - test bus p1 stoko 3 - power supply connection p2 bus 1x3 - test bus p304 bus 1x1 - vcc for fixed word probe p306 bus 1x1 - vcc for fixed word probe p310 bus 1x5 - test bus p312 bus 1x4 - test bus p313 bus 1x4 - test bus p404 bus 1x2 - test bus p407 bus 1x2 - test bus table 6 sma connector usage id type name description p103 sma edge outpecl pecl output of tza3000, noninverted, ac coupled, active in ecl mode p107 sma edge outqpecl pecl output of tza3000, inverted, ac coupled, active in ecl mode p200 sma edge coutq clock output of tza3004, inverted, ac coupled, active in normal mode p201 sma edge cout clock output of tza3004, non inverted, ac coupled, active in normal mode p202 sma edge doutq data output of tza3004, inverted, ac coupled, active in normal mode
24 fiber optic transceiver board stm1/4/8, oc3,12,24, fc/ge philips semiconductors application note an98090 p203 sma edge dout data output of tza3004, non inverted, ac coupled, active in normal mode p309 sma edge refclkq reference clock for tza3005 clock converter, inverting input p400 sma edge ldr din data input of tza3001, non inverted, ac coupled p402 sma edge ldr dinq data input of tza3001, inverted, ac coupled p403 sma edge la attenuated complementatry laser output of tza3001 table 7 smb connector usage id type name description p101 smb straight el_in test input for board test p301 smb square rxclk receive parallel clock, clock of parallel outgoing data of tza3005 p303 smb square fp frame pulse, pulsed output of frame detect circuit of tza3005 p307 smb square txpclk transmit parallel clock, incoming parallel clock of tza3005 p308 smb square sysclkdiv divided system clock, derived from txsclkq p311 smb straight txsclkq output clock of tza3005, has same jitter as output data table 6 sma connector usage id type name description
fiber optic transceiver board stm1/4/8, oc3,12,24, fc/ge philips semiconductors 25 application note an98090 3.2 dipswitches & leds 3.3 supply voltage selectors the supply voltage of the rf ics can be either 5.0 +/- 5% or 3.3 +/- 5% v. the selection on the board is done by means of soldering the appropriate side of a copper trace selector. no switches are used, to prevent this switching from disturbing the operation. note that all supplies must be set according to the table below: if the table 8 dipswitches & leds block led switch name description tza30x0 1 chip receiver d100 j100 squelch enables squelch mode on=active, off=nonactive d101 j101 pecl/cml selection of output. on=cml, off=pecl d102 los losttl flag. on=los of signal tza3004 data and clock recovery unit d200 sig3004 inverted los indicator. on=signal, off=los d201 j200 enl enables loop mode. on=loop mode, off=both mode d202 ool3004 out of lock. lock on 19 mhz when frequency window detector of tza3004 is active. on=within 1000 ppm of frequency window, off=without 1000 ppm frequency window tza3005 multiplexer frame detect demux clock convertor d300 lockdet lock of tza3005 synthesizer on reference clock input d312 j312 stopsyn test input: synthesizer section power down d301 j301 stoptx test input : transmit section power down d302 j302 llen line loopback enable input (active low). on = no loopback (= normal operation), off = loopback (serial output equals serial input) d303 j303 dlen diagnostic loopback enable input (active low). on = no loopback (= normal operation), off = loopback (parallel output equals parallel input) d304 j304 oof out of frame enable input d305 j305 refsel0 reference clock select input 0. with standard 19.44 mhz this should be set off d306 j306 refsel1 reference clock select input 1. with standard 19.44 mhz vcxo this should be set off d307 j307 buswidth 4/8 bit bus width select input. d308 j308 mode serial data rate select stm1/stm4 d309 j309 rst_pll reset clean up pll d310 j310 rstrx test input : reset receive logic d311 j311 stoprx test input : transmit section powerdown d313 s300 mrst master reset tza3001 laserdriver d400 alarm3001 bias alarm flag. on = alarm, off= no alarm. d401 j400 als automatic laser shutdown d402 s400 alarm reset resets latch of alarm3001 to als connection. on = reset, off = no reset d403 als_on latched als active d503 j500 vccvcxo supply of vcxo in cleanup pll. disable when external reference frequency is used
26 fiber optic transceiver board stm1/4/8, oc3,12,24, fc/ge philips semiconductors application note an98090 tza30x0 is set to 3.3 v, also the data & clock recovery unit should be set to 3.3 v and the mux/demux tza3005 also. note that j202 should be set to vcc-3.3 v. the transmitter cannot be changed, and is fixed to 5.0 v. a star (*) indicates the 3.3 v side of all connectors .. table 9 supply voltage of rf ics typenr function 3.3v 5v jumper ic tza30x0 1 chip receiver x x j102 and j103 tza30x1 1 chip transmitter x tza3004 data & clock recovery unit x x j201 and j202 tza3005 mux/demux x x j300
fiber optic transceiver board stm1/4/8, oc3,12,24, fc/ge philips semiconductors 27 application note an98090 fig.6 voltage selection jumpers shown with selectable voltages. note that all jumpers should have identical voltage and that j202 should be selected to vcc-3.3 v 5v0 5v0 3v3 5v0 3v3 3v3 5v0 3v3 5v0 0 1v7 j202 j201 j103 j102 j300
28 fiber optic transceiver board stm1/4/8, oc3,12,24, fc/ge philips semiconductors application note an98090 this page is intentionally left blank
29 philips semiconductors application note 4. schematics 4.1 overview nrs 200-299 nrs 500 - 599 nrs 300-399 nrs 400-499 nrs 100-199 nrs 0 - 99 tza30x1 + laser diode pin + tza30x0 supply vcc3v3 vcc5v tza3005 tza3004/OQ2541 modeq rst_pll rxclkdiv2 vcc3v3 vcc5v laserdriver + laser 622txd 622txdq vcc5v photodetector + transimpedance amplifier + lowpass filter + limiter 622in 622inq losttl vcc3v3 vcc5v vccd1 vccd2 modeq poclkdiv2 rst_pll vcc3v3 vcc5v demultiplexer + frame detect + multiplexer + clock conversion 19.44mhzvcxo 19mhz3004 622rxclk 622rxclkq 622rxd 622rxdq 622txd 622txdq buswidth losttl data and clock recovery 19mhz3004 622in 622inq 622rxclk 622rxclkq 622rxd 622rxdq modeq vcc3v3 vcc5v vccd1 vccd2 reference frequency pll 19.44mhzvcxo buswidth 10uf c1 p2 (b) p1 1 2 3 6.3v vcc5v vcc3v3 c2 10uf 6.3v
30 philips semiconductors application note 4.2 1 chip receiver tza30x0: pd_tia == 0.8 ... 1.6 uapp threshold level squelch bwc losth losttl pin detector + tza3000 application pecl/cml r116 50k d100 yellow c104 (b) 100nf j101 c 6 el_in 1 3 15 4 14 5 13 6 12 7 5 7 g 0 7 en 11 0 10 9 2 4 0 3 1 2 2 100nf c106 (b) = 74hc151pw ic100-1 mux c105 (b) 100nf p100 (b) r105 820 100nf c100 r108 51 r112 0 r114 (b) 470 22nf c103 1 2 3 outqpecl p107 (b) shield for detector p102 (b) r104 1k r100 20k j100 c r111 1k 1m r106 d101 green r107 1m 470 r115 (b) j103 (b) p106 j102 (b) r101 r103 1k 56k r113 r102 0 0 blm11a102s c101 22nf ic100-2 74hc151pw.sup gnd vcc l100 l101 blm11a102s d102 he_red ic102 45 ma 6.3v 15uf c102 l102 blm11a102s outpecl p103 (b) r109 82k 45 ma gnda 3 gnda 30 agc 31 gnda 32 dref 4 vcca 5 gnda 6 iphoto 7 gnda 8 gnda 9 2 vccd 20 gndd 21 outpecl 22 outqpecl 23 gndd 24 gndd 25 los 26 losq 27 losttl 28 losth 29 bwc 10 vref 11 gnda 12 gnd(sub) 13 n.c. 14 15 gndd 16 vccd 17 outcml 18 outqcml 19 vcca out_sel vccsel iph_el iph_el squelch cml_ecl vcc5v vcc3v3 vccd1 vcc5v vcc3v3 agc tza3000 ic101 gnda 1 vccd2 622in 622inq bwc vcca losth agc outpecl outqpecl vref vcca vcca_pot losth vcca_pot losttl bwc vref losttl losttl outpecl outqpecl vccsel vcc3v3 squelch pecl_cml squelch pecl_cml vccsel out_sel (with r109 removed) p101 r110 (b) n.m. vcca p105 p104 n.m. = not mounted n.m. (for testing only) (b) = bottom placement
31 philips semiconductors application note 4.3 data and clock recovery device tza3004: dcr out of lock 3004 45 ma enl signal3004 tza3004 application 220nf c208 j200 100nf c202(b) r202 1m p204 (b) red n.m. r206 p201 cout d202 dout 1k r204 p203 c200 100nf c203 100nf 47nf c206 1k r203 bsh103 tr203 s g d bc857 tr202 100nf c201 10k r208 c207 22nf l200 138 + 45 ma blm21a102s tr200 bc857 green d201 1k r201 3 r205 100nf c204 1k r200 1k r207 3.3nf c205 coutq p202 doutq cout 45 46 coutq gnd 47 aref 48 gnd 5 dloop 6 dloopq 7 gnd 8 ref19 9 p200 35 i.c. 36 37 pc gnd 38 los 39 cloopq 4 n.c. 40 gnd 41 dout 42 doutq 43 gnd 44 gnd 26 vee 27 vee 28 gnd 29 cloop 3 sel155 30 vee 31 gnd 32 din 33 34 dinq gnd capdoq 16 gnd 17 n.c. 18 n.c. 19 gnd 2 gnd 20 cref 21 crefq 22 23 gnd ref39 24 vee 25 ic200 tza3004hl 1 gnd 10 gnd 11 12 lock n.c. 13 gnd 14 capupq 15 green d200 j201 (b) j202 (b) vcc5v vcc3v3 vee3004 enl vcc3004 vcc3004 vcc3004 tr201 bcx19 622in vee3004 622inq dout doutq cout coutq vcc3004 sel155 enl sig3004 lock3004 vccd2 vccd1 622rxd 622rxdq 622rxclkq 622rxclk modeq 19mhz3004 sig3004 lock3004 vcc3004 cout doutq dout coutq vcc3004 vee3004 sel155 vee3004 n.m. = not mounted (b) = bottom placement 220nf c209 (n.m.) refclkq
32 philips semiconductors application note 4.4 data and clock recovery device OQ2541: dcr (in 1250 mbps con?guration only) out of lock 3004 45 ma enl signal3004 OQ2541 for 1250 mbps application 220nf c208 j200 100nf c202(b) r202 1m p204 (b) red n.m. r206 p201 cout d202 dout 1k r204 p203 c200 100nf c203 100nf 47nf c206 1k r203 bsh103 tr203 s g d bc857 tr202 100nf c201 10k r208 c207 22nf l200 138 + 45 ma blm21a102s tr200 bc857 green d201 1k r201 3 r205 100nf c204 1k r200 1k r207 3.3nf c205 coutq p202 doutq cout 45 46 coutq gnd 47 aref 48 gnd 5 dloop 6 dloopq 7 gnd 8 ref19 9 p200 35 i.c. 36 37 pc gnd 38 los 39 cloopq 4 n.c. 40 gnd 41 dout 42 doutq 43 gnd 44 gnd 26 dout_1250 27 dout_622 28 gnd 29 cloop 3 dout_155 30 vee 31 gnd 32 din 33 34 dinq gnd capdoq 16 gnd 17 n.c. 18 n.c. 19 gnd 2 gnd 20 cref 21 crefq 22 23 gnd ref39 24 vee 25 ic200 tza2542hl 1 gnd 10 gnd 11 12 lock n.c. 13 gnd 14 capupq 15 green d200 j201 (b) j202 (b) vcc5v vcc3v3 vee3004 enl vcc3004 vcc3004 vcc3004 tr201 bcx19 622in vee3004 622inq dout doutq cout coutq vcc3004 enl sig3004 lock3004 vccd2 vccd1 622rxd 622rxdq 622rxclkq 622rxclk modeq 19mhz3004 sig3004 lock3004 vcc3004 cout doutq dout coutq vcc3004 vee3004 sel155 (not used) vee3004 n.m. = not mounted (b) = bottom placement 220nf c209 (n.m.) refclkq
33 philips semiconductors application note 4.5 mux & demux: tza3005: dmux_fd_mux_cc 8 9 10 11 12 13 14 llen mrst refsel1 stoprx rstrx bottom stoptx refsel0 buswidth oof rst_pll dlen lockdet refclkq mode l310 4069bt.sup ic302 gnd 7 vcc 14 y3q 8 a3 9 22nf c314 blm11a102s y4q 10 a4 11 y5q 12 a5 13 vcc 14 y0q 2 3 a1 y1q 4 a2 5 y2q 6 gnd 7 r302 74lvt04pw ic301 sot402-1 hex inverter a0 1 4 98 39 p309 ic302 2 12 d310 r345 1k r333 green j309 r343 470 r304 (b) r339 j304 j308 0.5 ma blm11a102s l300 d313 he_red j305 c304 j310 22nf l309 r342 green c316 22nf blm11a102s c311 100pf d309 r332 1k p307 syclkdiv r314 (b) 0 r316 (b) n.m. r315 (b) 51 r321 (b) 51 22nf s300 7 agndsyn 8 gndsyno 9 txpd3 56 txpd4 57 txpd5 58 txpd6 59 vccd(syn) 6 txpd7 60 txpclk 61 62 63 19mhzo 64 vcca(syn) vccrxout 46 rxpclk 47 mrstq 48 49 dgndsyn 5 50 gndrxd 51 vcc(rxd) 52 txpd0 53 txpd1 54 txpd2 55 36 rxpd1 37 vcc(rxout) 38 rxpd2 39 refsel1 4 rxpd3 40 rxpd4 41 gndrxout 42 rxpd5 43 rxpd6 44 rxpd7 45 rxsclk 27 rxsclkq 28 gndrxcore 29 refsel0 3 30 31 32 oof 33 gndrxout 34 fp 35 rxpdo txsd 17 txsdq 18 gndtxout 19 gndtxcore 2 txsclkq 20 txsclk 21 sdttl 22 sdpecl 23 rsd 24 rsdq 25 vcc(rxcore) 26 tza3005 ic306 vcc(txcore) 1 stopsyn 10 rstrx 11 gndsub 12 stoptx 13 refclkq 14 refclk 15 16 22nf j307 c308 txpclk d308 yellow 0 d300 green p306 d302 he_red r300 r337 6.8uf 6.3v c301 6 d305 yellow d307 green 3 5 r330 1k 470 r318 (b) r347 1k r336 txpd6 l304 (b) blm11a102s txpd2 txpd1 spclk txpd0 txclk txpd7 p350...r358 transmit parallel data in txpd5 txpd4 txpd3 fp rxpd7 rxpd6 rxpd5 rxpd4 p300 rxpclk rxpd3 rxpd2 rxpd1 rxpd0 22nf c307 receive parallel data out 2 ma blm11a102s l301 r306 33 33 r307 p312 (b) p313 (b) r341 1 12 6 13 12 150 r324 1k r311 (b) 150 r313 (b) 36 r312 (b) 100 r305 blm11a102s l306 1k r327 d304 150 r323 r310 470 green fp p303 j311 blm11a102s l308 c313 22nf r328 r338 1k 1k r329 1k r331 q0 5 q0q 6 gnd 7 q1q q1 100 r301 sot402-1 dual d flipflop rd0q 1 sd1q cp1 d1 rd1q vcc d0 2 cp0 3 sd1q 4 c306 22nf 74lvt74pw ic300 c309 22nf 22nf c315 (b) j302 r340 l307 blm11a102s r317 (b) 470 j301 c300 22nf r326 1k j306 he_red d301 d303 green r346 r334 1k d311 green r308 1.6k 1k r320 470 r309 150 r322 blm11a102s l303 rxclk p301 5 11 10 1.5 ma blm11a102s l302 22nf c310 c312 100nf d306 green r303 100 22nf c302 1k r325 r344 p302 p310 (b) j303 oof rst_pllq rst_pllq mrst rst_pll mode stoptx stoprx rstrx refsel0 36 r319 vccd_syn vcc_txout vcc_rxcore vcc_rxout oof dlen txsclk txsclkq modeq modeb buswidth llen stoptx 622txdq 622txd buswidth llen dlen losttl 622rxdq 622rxd 622rxclkq 622rxclk stoprx rstrx vcc3v3 refsel1 vcc_txout 19.44mhzvcxo mode 19mhz3004 vcc_txcore vcc_rxout txsclk txsclkq vccbuf vccpresc vcc3v3 lockdet refsel0 refsel1 lockdet mrstq vccpresc vccbuf bufrxclk rxclkdiv2 vcc_rxd vcca_syn vccd_syn mode rst_pll mrstq mrst vcc3v3 vcc_rxcore oof vcca_syn vcc_rxd vcc_txcore ic302 ic302 ic302 ic302 ic302 j300 (b) blm21a102s l305 c305 6.3v 6.8uf vcc5v vcc3v3 txsclkq p311 r349 r348 j312 r335 1k d312 green stopsyn stopsyn c303 n.m. = not mounted (b) = bottom placement vcc3v3 vcc3v3 p304 p306 stopsyn r511(b) 0 r350 r351 r352 r353 r354 r355 r356 r357 r358 100
34 philips semiconductors application note 4.6 laserdriver tza30x1: ldr_ld la als alarmhi zero one alarmlo 200k r406 r426 16 1k r433 blm11a102s l403 j400 c407 100nf 1k 0 r400 (b) alarmreset s400 r434 r421 16 "zero" level p407 (b) 16 r419 16 p402 ldr dinq/txsd r416 22nf c413 (b) 430 r427 (b) 47pf c411 p400 ldr din / txsdq 22nf c412 he_red d401 r415 100 r439 c409 n.m. r414 (b) 30 n.m. c406 22nf c410 n.m. r404 24k (b) r432 1k r405 200k r413 (b) d402 he_red l400 4013bt.sup ic402-3 gnd 7 vcc 14 blm11a102s 6.3v c405 p403 p404 (b) r437 (b) n.m. r425 (b) 68 n.m. c404 (b) 3.3pf n.m. r412 (b) n.m. r428 (b) r411 (b) 100 r422 r410(b) lca r429 (b) 51 22nf c416 12 nc 13 nc 14 cca nc 2 3 nc 4 nc 5 rth 6 nc 7 bca 8 ban 9 ic401 n.m. dil laser can 1 10 lan 11 rth r424 (b) 33 c400 22nf 100nf c401 blm21a102s l402 c1 5 1d 1 6 s 2 4013bt ic402-1 4 r 3 1k r435 blm21a102s l404 (b) d400 he_red he_red d403 r438 r436 (b) n.m. p401(b) 0 r431 1-o 1 1- 2 1+ 3 v- 4 2+ 5 2- 6 2-o 7 v+ 8 r430 0 r418 (b) 16 2xcmos opamp tlc2272md ic403 r409 (b) r420 (b) 16 c402 (b) 22nf r403 24k (b) 200k r408 l401 22nf c403 l406 22nf c414 blm11a102s 22nf c415 blm11a102s blm11a102s l405 l407 blm11a102s c408 (b) 22nf 24k (b) r402 r407 200k r401 24k (b) p405 "one" level 3 vcc 30 als 31 32 gnd tone 4 tzero 56 bgap vcc 7 gnd 8 gnd 9 vcc 20 alarmlo 21 one 22 zero 23 gnd 24 gnd 25 alarm 26 vcc 27 din 28 dinq 29 gnd vcc 10 gnd 11 laq 12 la 13 gnd 14 bias 15 gnd 16 gnd 17 alarmhi 18 vcc 19 monin 2 vcc_alb vcc5v vcc_las vcc_alarms alarm3001 bfdsup alarm3001 als alarm mode ic400 tza3001ahl gnd 1 vcc_r vcc_r vcc_r bfdsup alarmhi alarmlo one zero vcc_g bfd alarm3001 vcc_r 622txdq vcc_r 622txd vcc_b vcc5v als vcc_b vcc_g tzero tone bfd vcc_las tzero tone vcc_alarms vcc_alb n.m. n.m. n.m. n.m. r417 (b) 24 vcc_las r423 (b) vcc_las 33 n.m. n.m. = not mounted (b) = bottom placement n.m.
35 philips semiconductors application note 4.7 reference pll for loopback signal cleanup vcc 2i1 2i0 vccvcxo n.m. r510 180 r503 r509 n.m. l506 (b) 100nf c508 n.m. c506 x ma blm11a102s 1i3 3 1i2 4 1i1 5 1i0 6 1y 78 gnd 9 2y dual 4-input mux 1eq 10 11 2i2 12 13 2i3 s0 14 2eq 15 vcc 16 s1 2 19.44mhz 1 2 34 5 6 ic500 74lv153 4 1q1 1q2 5 1q3 6 gnd 7 2q3 8 2q2 9 slugla x500 ic501 dual 4b ripple cnt 1cpq 1 2q1 10 2q0 11 2mr 12 2cpq 13 14 1mr 2 1q0 3 0 r508 74lv393 240k r507 n.m. r501 c504 68pf 22nf c510 r500 c511 100nf c507 47nf 7.5k 4 vco-out 5 inh 6 c1a 7 c1b gnd 8 vcoin 9 pll 1 gnd 10 demout 11 r1 12 r2 13 pc2out 14 sigin 15 rb 16 vcc pc1/pout 23 comp1 r502 1m 74hct9046ad ic502 d500 green 270 r506 r504 1m 5 ma blm11a102s l505 5 2- 6 o 7 v+ 8 c512 (b) 22nf 6.3v 2xcmos opamp tlc2272 ic503 1o 1 1- 2 1+ 3 4 2+ 9.2 ma blm11a102s l500 6.8uf c509 6.8uf 6.3v c500 0.5 ma blm11a102s l502 c502 22nf 22nf c501 5 + x ma blm11a102s l504 9 ma blm11a102s l501 r505 1m l503 blm11a102s c505 22nf j500 c503 n.m. modeq poclkdiv2 rst_pll vcc3v3 vcc5v 19.44mhzvcxo vccrippl vccmux 4.86mhzref vccpd poclkdiv32 poclkdiv16 poclkdiv8 poclkdiv4 vccrippl vccmux vccpd vccvcxo rst_pll buswidth rst_pll vcclf vcclf vcclf phasedetectorout 19.44mhzvcxo_feedback vccvcxo 4.86mhz rst_pll v- 1 n.m. = not mounted (b) = bottom placement
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philips semiconductors 37 application note 5. bill of materials table 10 bill of materials, sorted after reference number. nm=not mounted ref nm part number comp series vendor tolerance rating geom 8222-411-47513 pr47513 om5802 ps-sle board c1 b45196e1106m9 10uf b45196 siemens 20% 6.3v b45_b c2 b45196e1106m9 10uf b45196 siemens 20% 6.3v b45_b c100 2222-786-16749 100nf x7r philips 20% 16v c0603 c104 2222-786-16749 100nf x7r philips 20% 16v c0604 c105 2222-786-16749 100nf x7r philips 20% 16v c0605 c106 2222-786-16749 100nf x7r philips 20% 16v c0606 c200 2222-786-16749 100nf x7r philips 20% 16v c0607 c201 2222-786-16749 100nf x7r philips 20% 16v c0608 c202 2222-786-16749 100nf x7r philips 20% 16v c0609 c203 2222-786-16749 100nf x7r philips 20% 16v c0610 c204 2222-786-16749 100nf x7r philips 20% 16v c0611 c312 2222-786-16749 100nf x7r philips 20% 16v c0612 c401 2222-786-16749 100nf x7r philips 20% 16v c0613 c407 2222-786-16749 100nf x7r philips 20% 16v c0614 c508 2222-786-16749 100nf x7r philips 20% 16v c0615 c511 2222-786-16749 100nf x7r philips 20% 16v c0616 c101 2222-916-16741 22nf x7r philips 20% 25v c0603 c103 2222-916-16741 22nf x7r philips 20% 25v c0604 c207 2222-916-16741 22nf x7r philips 20% 25v c0605 c300 2222-916-16741 22nf x7r philips 20% 25v c0606 c302 2222-916-16741 22nf x7r philips 20% 25v c0607 c303 2222-916-16741 22nf x7r philips 20% 25v c0608 c304 2222-916-16741 22nf x7r philips 20% 25v c0609 c306 2222-916-16741 22nf x7r philips 20% 25v c0610 c307 2222-916-16741 22nf x7r philips 20% 25v c0611 c308 2222-916-16741 22nf x7r philips 20% 25v c0612 c309 2222-916-16741 22nf x7r philips 20% 25v c0613 c310 2222-916-16741 22nf x7r philips 20% 25v c0614 c313 2222-916-16741 22nf x7r philips 20% 25v c0615 c314 2222-916-16741 22nf x7r philips 20% 25v c0616 c315 2222-916-16741 22nf x7r philips 20% 25v c0617 c316 2222-916-16741 22nf x7r philips 20% 25v c0618 c400 2222-916-16741 22nf x7r philips 20% 25v c0619 c402 2222-916-16741 22nf x7r philips 20% 25v c0620 c403 2222-916-16741 22nf x7r philips 20% 25v c0621 c406 2222-916-16741 22nf x7r philips 20% 25v c0622 c408 2222-916-16741 22nf x7r philips 20% 25v c0623 c412 2222-916-16741 22nf x7r philips 20% 25v c0624
38 philips semiconductors application note c413 2222-916-16741 22nf x7r philips 20% 25v c0625 c414 2222-916-16741 22nf x7r philips 20% 25v c0626 c415 2222-916-16741 22nf x7r philips 20% 25v c0627 c416 2222-916-16741 22nf x7r philips 20% 25v c0628 c501 2222-916-16741 22nf x7r philips 20% 25v c0629 c502 2222-916-16741 22nf x7r philips 20% 25v c0630 c505 2222-916-16741 22nf x7r philips 20% 25v c0631 c510 2222-916-16741 22nf x7r philips 20% 25v c0632 c512 2222-916-16741 22nf x7r philips 20% 25v c0633 c102 b45196e1156m4 6.8uf b45196 siemens 20% 6.3v b45_c c301 b45196e1156m4 6.8uf b45196 siemens 20% 6.3v b45_c c305 b45196e1156m4 6.8uf b45196 siemens 20% 6.3v b45_c c405 b45196e1156m4 6.8uf b45196 siemens 20% 6.3v b45_c c500 b45196e1156m4 6.8uf b45196 siemens 20% 6.3v b45_c c509 b45196e1156m4 6.8uf b45196 siemens 20% 6.3v b45_c c205 2222-596-16621 3.3nf x7r philips 10% 50v c0603 c206 2222-786-16745 47nf x7r philips 20% 16v c0603 c507 2222-786-16745 47nf x7r philips 20% 16v c0604 c208 2222-960-16654 220nf x7r philips 10% 16v c0805 c311 2222-867-12101 100pf np0 philips 5% 50v c0603 c404 x 2222-867-12338 np0 philips 0.25pf 50v c0603 c409 x c0603-x7r philips 10% 63v c0603 c410 x c0603-x7r philips 10% 63v c0604 c503 x c0603-x7r philips 10% 63v c0605 c506 x c0603-x7r philips 10% 63v c0606 c411 2222-867-12479 47pf np0 philips 5% 50v c0603 c504 2222-867-12689 68pf np0 philips 5% 50v c0603 d100 hlmp6400-009 yellow diff-lns farnell smled d305 hlmp6400-009 yellow diff-lns farnell smled d308 hlmp6400-009 yellow diff-lns farnell smled d101 hlmp6500-011 green diff-lns farnell smled d200 hlmp6500-011 green diff-lns farnell smled d201 hlmp6500-011 green diff-lns farnell smled d300 hlmp6500-011 green diff-lns farnell smled d303 hlmp6500-011 green diff-lns farnell smled d304 hlmp6500-011 green diff-lns farnell smled d306 hlmp6500-011 green diff-lns farnell smled d307 hlmp6500-011 green diff-lns farnell smled d309 hlmp6500-011 green diff-lns farnell smled d310 hlmp6500-011 green diff-lns farnell smled table 10 bill of materials, sorted after reference number. nm=not mounted ref nm part number comp series vendor tolerance rating geom
philips semiconductors 39 application note d311 hlmp6500-011 green diff-lns farnell smled d312 hlmp6500-011 green diff-lns farnell smled d500 hlmp6500-011 green diff-lns farnell smled d102 hlmp6300-011 he_red diff-lns farnell smled d301 hlmp6300-011 he_red diff-lns farnell smled d302 hlmp6300-011 he_red diff-lns farnell smled d313 hlmp6300-011 he_red diff-lns farnell smled d400 hlmp6300-011 he_red diff-lns farnell smled d401 hlmp6300-011 he_red diff-lns farnell smled d402 hlmp6300-011 he_red diff-lns farnell smled d403 hlmp6300-011 he_red diff-lns farnell smled d202 hlmp6000-011 red diff-lns farnell smled ic100 9351-889-50512 74hc151pw philips sot403 ic101 pn-tza3000 tza3000 icuniv * sot401 ic200 pn-tza3004hl tza3004hl icuniv * sot313 ic300 pn-74lvt74pw 74lvt74pw icuniv * sot402 ic301 pn-74lvt04pw 74lvt04pw icuniv * sot402 ic302 9333-730-00652 4069bt hef philips sot108 ic303 pn-tza3005 tza3005 icuniv * sot393 ic400 pn-tza3001 tza3001 icuniv * sot401 ic401 pn-dillaser dil-laser icuniv * sot27_s ic402 9333-726-60652 4013bt hef philips sot108 ic403 pn-tlc2272md tlc2272md icuniv * sot96 ic503 slugla19.44 vcxo vectron 6pin ic500 pn-74lv153pw 74lv153pw icuniv * sot403 ic501 pn-74lv393pw 74lv393pw icuniv * sot402 ic502 pn-74hct9046ad icuniv * sot403 j100 09-03-201-02 spdt pr-sw spoele spdt j101 09-03-201-02 spdt pr-sw spoele spdt j200 09-03-201-02 spdt pr-sw spoele spdt j301 09-03-201-02 spdt pr-sw spoele spdt j302 09-03-201-02 spdt pr-sw spoele spdt j303 09-03-201-02 spdt pr-sw spoele spdt j304 09-03-201-02 spdt pr-sw spoele spdt j305 09-03-201-02 spdt pr-sw spoele spdt j306 09-03-201-02 spdt pr-sw spoele spdt j307 09-03-201-02 spdt pr-sw spoele spdt j308 09-03-201-02 spdt pr-sw spoele spdt j309 09-03-201-02 spdt pr-sw spoele spdt j310 09-03-201-02 spdt pr-sw spoele spdt table 10 bill of materials, sorted after reference number. nm=not mounted ref nm part number comp series vendor tolerance rating geom
40 philips semiconductors application note j311 09-03-201-02 spdt pr-sw spoele spdt j312 09-03-201-02 spdt pr-sw spoele spdt j400 09-03-201-02 spdt pr-sw spoele spdt j500 09-03-201-02 spdt pr-sw spoele spdt l100 l-0603cs blm11a102s 0603cs * l0603cs l101 l-0603cs blm11a102s 0603cs * l0603cs l102 l-0603cs blm11a102s 0603cs * l0603cs l300 l-0603cs blm11a102s 0603cs * l0603cs l301 l-0603cs blm11a102s 0603cs * l0603cs l302 l-0603cs blm11a102s 0603cs * l0603cs l303 l-0603cs blm11a102s 0603cs * l0603cs l304 l-0603cs blm11a102s 0603cs * l0603cs l306 l-0603cs blm11a102s 0603cs * l0603cs l307 l-0603cs blm11a102s 0603cs * l0603cs l308 l-0603cs blm11a102s 0603cs * l0603cs l309 l-0603cs blm11a102s 0603cs * l0603cs l310 l-0603cs blm11a102s 0603cs * l0603cs l400 l-0603cs blm11a102s 0603cs * l0603cs l401 l-0603cs blm11a102s 0603cs * l0603cs l403 l-0603cs blm11a102s 0603cs * l0603cs l405 l-0603cs blm11a102s 0603cs * l0603cs l406 l-0603cs blm11a102s 0603cs * l0603cs l407 l-0603cs blm11a102s 0603cs * l0603cs l500 l-0603cs blm11a102s 0603cs * l0603cs l501 l-0603cs blm11a102s 0603cs * l0603cs l502 l-0603cs blm11a102s 0603cs * l0603cs l503 l-0603cs blm11a102s 0603cs * l0603cs l504 l-0603cs blm11a102s 0603cs * l0603cs l505 l-0603cs blm11a102s 0603cs * l0603cs l506 l-0603cs blm11a102s 0603cs * l0603cs l200 l-0805cs blm21a102s 0805cs coilcrft l0805cs l305 l-0805cs blm21a102s 0805cs coilcrft l0805cs l402 l-0805cs blm21a102s 0805cs coilcrft l0805cs l404 l-0805cs blm21a102s 0805cs coilcrft l0805cs p1 mks3733-1-0-303 mks3730_3p mks3730 stocko m3p p100 05-88-1536 ar_bus_1x2p display 1x2p p104 05-88-1536 ar_bus_1x2p display 1x2p p105 05-88-1536 ar_bus_1x2p display 1x2p p204 05-88-1536 ar_bus_1x2p display 1x2p p404 05-88-1536 ar_bus_1x2p display 1x2p table 10 bill of materials, sorted after reference number. nm=not mounted ref nm part number comp series vendor tolerance rating geom
philips semiconductors 41 application note p407 05-88-1536 ar_bus_1x2p display 1x2p p101 r114426 smb_str coax radiall smb p311 r114426 smb_str coax radiall smb p102 pcb-exp-geom shield * 3p p103 sma_ed coax johnson smae p107 sma_ed coax johnson smae p200 sma_ed coax johnson smae p201 sma_ed coax johnson smae p202 sma_ed coax johnson smae p203 sma_ed coax johnson smae p403 05-88-1136 ar_1x2p display 1x2p p302 05-88-1136 ar_1x2p display 1x2p p405 05-88-1136 ar_1x2p display 1x2p p406 05-88-1136 ar_1x2p display 1x2p p18 pcb-exp-geom * 10p p2 05-88-1536 ar_bus_1x3p display 1x3p p300 05-88-1236 ar_2x10p display 2x10p p305 05-88-1236 ar_2x10p display 2x10p p301 r114665 smb_clk-s coax radiall smbq p303 r114665 smb_clk-s coax radiall smbq p307 r114665 smb_clk-s coax radiall smbq p308 r114665 smb_clk-s coax radiall smbq p304 2422-034-15068 solder_pin philips 1x1p p306 2422-034-15068 solder_pin philips 1x1p p309 sma_ed coax johnson smae p400 sma_ed coax johnson smae p402 sma_ed coax johnson smae p310 05-88-1536 ar_bus_1x4p display 1x5p p312 05-88-1536 ar_bus_1x4p display 1x4p p313 05-88-1536 ar_bus_1x4p display 1x4p p401 05-88-1536 ar_bus_1x4p display 1x4p r100 2122-362-00727 20k 3296y bourns 10% 0.5w bo3296y r101 2322-702-96001 0 rc21 philips 5% 0.063w r0603 r102 2322-702-96001 0 rc21 philips 5% 0.063w r0603 r112 2322-702-96001 0 rc21 philips 5% 0.063w r0603 r300 2322-702-96001 0 rc21 philips 5% 0.063w r0603 r316 2322-702-96001 0 rc21 philips 5% 0.063w r0603 r400 2322-702-96001 0 rc21 philips 5% 0.063w r0603 r430 2322-702-96001 0 rc21 philips 5% 0.063w r0603 r431 2322-702-96001 0 rc21 philips 5% 0.063w r0603 table 10 bill of materials, sorted after reference number. nm=not mounted ref nm part number comp series vendor tolerance rating geom
42 philips semiconductors application note r508 2322-702-96001 0 rc21 philips 5% 0.063w r0603 r511 2322-702-96001 0 rc21 philips 5% 0.063w r0603 r103 2322-702-60102 1k rc21 philips 5% 0.063w r0603 r104 2322-702-60102 1k rc21 philips 5% 0.063w r0603 r111 2322-702-60102 1k rc21 philips 5% 0.063w r0603 r200 2322-702-60102 1k rc21 philips 5% 0.063w r0603 r201 2322-702-60102 1k rc21 philips 5% 0.063w r0603 r203 2322-702-60102 1k rc21 philips 5% 0.063w r0603 r204 2322-702-60102 1k rc21 philips 5% 0.063w r0603 r207 2322-702-60102 1k rc21 philips 5% 0.063w r0603 r320 2322-702-60102 1k rc21 philips 5% 0.063w r0603 r324 2322-702-60102 1k rc21 philips 5% 0.063w r0603 r325 2322-702-60102 1k rc21 philips 5% 0.063w r0603 r326 2322-702-60102 1k rc21 philips 5% 0.063w r0603 r327 2322-702-60102 1k rc21 philips 5% 0.063w r0603 r328 2322-702-60102 1k rc21 philips 5% 0.063w r0603 r329 2322-702-60102 1k rc21 philips 5% 0.063w r0603 r330 2322-702-60102 1k rc21 philips 5% 0.063w r0603 r331 2322-702-60102 1k rc21 philips 5% 0.063w r0603 r332 2322-702-60102 1k rc21 philips 5% 0.063w r0603 r333 2322-702-60102 1k rc21 philips 5% 0.063w r0603 r334 2322-702-60102 1k rc21 philips 5% 0.063w r0603 r335 2322-702-60102 1k rc21 philips 5% 0.063w r0603 r336 2322-702-60102 1k rc21 philips 5% 0.063w r0603 r432 2322-702-60102 1k rc21 philips 5% 0.063w r0603 r433 2322-702-60102 1k rc21 philips 5% 0.063w r0603 r434 2322-702-60102 1k rc21 philips 5% 0.063w r0603 r435 2322-702-60102 1k rc21 philips 5% 0.063w r0603 r105 2322-180-73821 820 sfr16t philips 5% 0.5w sfr16t r106 2322-702-60105 1m rc21 philips 5% 0.063w r0603 r107 2322-702-60105 1m rc21 philips 5% 0.063w r0603 r202 2322-702-60105 1m rc21 philips 5% 0.063w r0603 r337 2322-702-60105 1m rc21 philips 5% 0.063w r0603 r338 2322-702-60105 1m rc21 philips 5% 0.063w r0603 r339 2322-702-60105 1m rc21 philips 5% 0.063w r0603 r340 2322-702-60105 1m rc21 philips 5% 0.063w r0603 r341 2322-702-60105 1m rc21 philips 5% 0.063w r0603 r342 2322-702-60105 1m rc21 philips 5% 0.063w r0603 r343 2322-702-60105 1m rc21 philips 5% 0.063w r0603 r344 2322-702-60105 1m rc21 philips 5% 0.063w r0603 table 10 bill of materials, sorted after reference number. nm=not mounted ref nm part number comp series vendor tolerance rating geom
philips semiconductors 43 application note r345 2322-702-60105 1m rc21 philips 5% 0.063w r0603 r346 2322-702-60105 1m rc21 philips 5% 0.063w r0603 r347 2322-702-60105 1m rc21 philips 5% 0.063w r0603 r348 2322-702-60105 1m rc21 philips 5% 0.063w r0603 r349 2322-702-60105 1m rc21 philips 5% 0.063w r0603 r438 2322-702-60105 1m rc21 philips 5% 0.063w r0603 r439 2322-702-60105 1m rc21 philips 5% 0.063w r0603 r502 2322-702-60105 1m rc21 philips 5% 0.063w r0603 r504 2322-702-60105 1m rc21 philips 5% 0.063w r0603 r505 2322-702-60105 1m rc21 philips 5% 0.063w r0603 r108 2322-702-60519 51 rc21 philips 5% 0.063w r0603 r314 2322-702-60519 51 rc21 philips 5% 0.063w r0603 r321 2322-702-60519 51 rc21 philips 5% 0.063w r0603 r429 2322-702-60519 51 rc21 philips 5% 0.063w r0603 r109 2322-704-68203 82k rc22h philips 1% 0.063w r0603 r110 x res-704-r0603 x rc11 philips 1% 0.1w r0603 r206 x res-704-r0603 x rc11 philips 1% 0.1w r0603 r315 x res-704-r0603 x rc11 philips 1% 0.1w r0603 r428 x res-704-r0603 x rc11 philips 1% 0.1w r0603 r436 x res-704-r0603 x rc11 philips 1% 0.1w r0603 r437 x res-704-r0603 x rc11 philips 1% 0.1w r0603 r507 x res-704-r0603 x rc11 philips 1% 0.1w r0603 r509 x res-704-r0603 x rc11 philips 1% 0.1w r0603 r510 x res-704-r0603 x rc11 philips 1% 0.1w r0603 r113 2322-702-60563 56k rc21 philips 5% 0.063w r0603 r114 2322-702-60471 470 rc21 philips 5% 0.063w r0603 r115 2322-702-60471 470 rc21 philips 5% 0.063w r0603 r304 2322-702-60471 470 rc21 philips 5% 0.063w r0603 r309 2322-702-60471 470 rc21 philips 5% 0.063w r0603 r310 2322-702-60471 470 rc21 philips 5% 0.063w r0603 r317 2322-702-60471 470 rc21 philips 5% 0.063w r0603 r318 2122-362-00728 50k 3296y bourns 10% 0.5w bo3296y r205 2322-702-60308 3 rc21 philips 5% 0.063w r0603 r208 2322-702-60103 10k rc21 philips 5% 0.063w r0603 r301 2322-711-61101 100 rc01 philips 5% 0.25w r1206 r302 2322-702-60399 39 rc21 philips 5% 0.063w r0603 r303 2322-704-61001 100 rc22h philips 1% 0.063w r0603 r305 2322-704-61001 100 rc22h philips 1% 0.063w r0603 r422 2322-704-61001 101 rc22h philips 1% 0.063w r0603 r306 2322-702-60339 33 rc21 philips 5% 0.063w r0603 table 10 bill of materials, sorted after reference number. nm=not mounted ref nm part number comp series vendor tolerance rating geom
44 philips semiconductors application note r307 2322-702-60339 33 rc21 philips 5% 0.063w r0603 r308 2322-702-60162 1.6k rc21 philips 5% 0.063w r0603 r311 2322-702-60151 150 rc21 philips 5% 0.063w r0603 r312 2322-702-60151 150 rc21 philips 5% 0.063w r0603 r322 2322-702-60151 150 rc21 philips 5% 0.063w r0603 r323 2322-702-60151 150 rc21 philips 5% 0.063w r0603 r313 2322-702-60369 36 rc21 philips 5% 0.063w r0603 r319 2322-702-60369 36 rc21 philips 5% 0.063w r0603 r350 2322-702-60101 100 rc21 philips 5% 0.063w r0603 r351 2322-702-60101 100 rc21 philips 5% 0.063w r0603 r352 2322-702-60101 100 rc21 philips 5% 0.063w r0603 r353 2322-702-60101 100 rc21 philips 5% 0.063w r0603 r354 2322-702-60101 100 rc21 philips 5% 0.063w r0603 r355 2322-702-60101 100 rc21 philips 5% 0.063w r0603 r356 2322-702-60101 100 rc21 philips 5% 0.063w r0603 r357 2322-702-60101 100 rc21 philips 5% 0.063w r0603 r358 2322-702-60101 100 rc21 philips 5% 0.063w r0603 r415 2322-702-60101 100 rc21 philips 5% 0.063w r0603 r401 2322-702-60243 24k rc21 philips 5% 0.063w r0603 r402 2322-702-60243 24k rc21 philips 5% 0.063w r0603 r403 2322-702-60243 24k rc21 philips 5% 0.063w r0603 r404 2322-702-60243 24k rc21 philips 5% 0.063w r0603 2322-702-60243 24k rc21 philips 5% 0.063w r0603 r405 2122-362-00731 200k 3296y bourns 10% 0.5w b3296y r406 2122-362-00731 200k 3296y bourns 10% 0.5w b3296y r407 2122-362-00731 200k 3296y bourns 10% 0.5w b3296y r408 2122-362-00731 200k 3296y bourns 10% 0.5w b3296y r409 x rc21 philips 5% 0.063w r0603 r410 x rc22h philips 1% 0.063w r0603 r411 x rc22h philips 1% 0.063w r0603 r412 x rc22h philips 1% 0.063w r0603 r413 x rc22h philips 1% 0.063w r0603 r414 2322-711-61309 30 rc01 philips 5% 0.25w r1206 r416 res-r0402 16 philips 1% 0.1w r0402 r418 res-r0402 16 philips 1% 0.1w r0402 r419 res-r0402 16 philips 1% 0.1w r0402 r420 res-r0402 16 philips 1% 0.1w r0402 r421 res-r0402 16 philips 1% 0.1w r402 r426 res-r0402 16 philips 1% 0.1w r0402 r417 x rc01 philips 5% 0.25w r1206 table 10 bill of materials, sorted after reference number. nm=not mounted ref nm part number comp series vendor tolerance rating geom
philips semiconductors 45 application note r423 2322-730-61339 33 rc11 philips 5% 0.1w r0805 r424 2322-730-61340 33 rc11 philips 5% 0.1w r0806 r425 x rc21 philips 5% 0.063w r0603 r427 2322-702-60431 430 rc21 philips 5% 0.063w r0603 r500 2322-702-60823 82k rc21 philips 5% 0.063w r0603 r501 2322-702-60244 240k rc21 philips 5% 0.063w r0603 r503 2322-702-60181 180 rc21 philips 5% 0.063w r0603 r506 2322-702-60271 270 rc21 philips 5% 0.063w r0603 s300 rodelco-4972-998 skhhan pr-sw alps mxh s400 farnell-150-559 spdt pr-sw mors spdt tr200 9335-897-40212 bc857 philips sot23 tr202 9335-897-40212 bc857 philips sot23 tr201 9332-096-40212 bcx19 philips sot23 tr203 pn-bsh103 bsh103 fets philips sot23 x500 pn-slugla slugla icuniv * sot228 ic401 2422-549-13264 dil14 sot27_s p309 142-0701-851 thomson sma_str p400 142-0701-852 thomson sma_str p404 142-0701-853 thomson sma_str table 10 bill of materials, sorted after reference number. nm=not mounted ref nm part number comp series vendor tolerance rating geom
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philips semiconductors 47 application note 6. layouts 6.1 silkscreen
48 philips semiconductors application note 6.2 top layer component placement
philips semiconductors 49 application note 6.3 toplayer copper
50 philips semiconductors application note 6.4 first inner layer (#3) copper, inverted
philips semiconductors 51 application note 6.5 second inner layer (#4) copper, topview
52 philips semiconductors application note 6.6 bottom layer (#2) copper topview
philips semiconductors 53 application note 6.7 bottom compenent placement (view from bottom)
54 philips semiconductors application note this page is intentionally left blank

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